This paper addresses numerical simulations of fluid-structure interaction (FSI) problems involving artery aneurysms, focusing on steady-state configurations. Both the fluid flow and the hyperelastic material are incompressible. A monolithic formulation for the FSI problem is considered, where the deformation of the fluid domain is taken into account according to an Arbitrary Lagrangian Eulerian (ALE) scheme. The numerical algorithm is a Newton-Krylov method combined with geometric multigrid preconditioner and smoothing based on domain decomposition. The system is modeled using a specific equation shuffling that aims at improving the row pivoting. Due to the complexity of the operat...
Cardiovascular diseases are the first cause of death in industrialized countries. It is now widely e...
Numerical simulation of fluid-structure interaction with application to aneurysm hemodynamic
Some numerical approaches to solve fluid structure interaction problems in blood flow are reviewed. ...
This paper addresses numerical simulations of fluid-structure interaction (FSI) problems involvin...
In this work we investigate the potentialities of multi-scale engineering techniques to approach com...
This paper presents a computational vascular fluid-structure interaction (FSI) methodology and its a...
A computational vascular fluid-structure interaction framework for the simulation of patient-specifi...
The stabilized space-time fluid-structure interaction (SSTFSI) techniques developed by the Team for ...
A computational vascular fluid–structure interaction framework for the simulation of patient-specifi...
We present the methods used to add continuum element functionality to the structure side of our Flui...
Numerical techniques for solving the problem of fluid structure interaction with an elastic materia...
Three key challenges in developing advanced image-based computational models of cerebral aneurysms a...
A parallel fully-coupled approach has been developed for the fluid-structure interaction problem in a...
Numerical simulation of blood flows in compliant arteries is becoming an useful tool in studying the...
In this work, the impact of modeling techniques on predicting the mechanical behaviors of abdominal ...
Cardiovascular diseases are the first cause of death in industrialized countries. It is now widely e...
Numerical simulation of fluid-structure interaction with application to aneurysm hemodynamic
Some numerical approaches to solve fluid structure interaction problems in blood flow are reviewed. ...
This paper addresses numerical simulations of fluid-structure interaction (FSI) problems involvin...
In this work we investigate the potentialities of multi-scale engineering techniques to approach com...
This paper presents a computational vascular fluid-structure interaction (FSI) methodology and its a...
A computational vascular fluid-structure interaction framework for the simulation of patient-specifi...
The stabilized space-time fluid-structure interaction (SSTFSI) techniques developed by the Team for ...
A computational vascular fluid–structure interaction framework for the simulation of patient-specifi...
We present the methods used to add continuum element functionality to the structure side of our Flui...
Numerical techniques for solving the problem of fluid structure interaction with an elastic materia...
Three key challenges in developing advanced image-based computational models of cerebral aneurysms a...
A parallel fully-coupled approach has been developed for the fluid-structure interaction problem in a...
Numerical simulation of blood flows in compliant arteries is becoming an useful tool in studying the...
In this work, the impact of modeling techniques on predicting the mechanical behaviors of abdominal ...
Cardiovascular diseases are the first cause of death in industrialized countries. It is now widely e...
Numerical simulation of fluid-structure interaction with application to aneurysm hemodynamic
Some numerical approaches to solve fluid structure interaction problems in blood flow are reviewed. ...